RU2710152C1 - Electric power transmission method - Google Patents

Abstract

FIELD: electric power engineering.

SUBSTANCE: method of electric power transmission, at which by means of working switches the line is put into operation, their position is controlled, position of switch control key, output relays of protection against short circuits on line, voltage parameters on line and angle ϕ₁ between voltages of this systems connected by this switch, and when the position of the operating switch becomes not corresponding to the position of the control switch or relay protection has actuated (changed the position of the output protection relays), and wherein voltage parameters on line correspond to given and ϕ₁≤ϕ₂, where ϕ₂ – specified allowable angle between voltages of system lines connected by operating switch, device of line reclosing is started, before line is put into operation, emergency switch is installed in hot standby, its position is constantly monitored and, when after switching on the line operating switch in operation, as soon as there is mismatch of position of its switch control switch position or relay protection (changed position of output protection relays), beginning to measure time t_meas from moment of circuit breaker disconnection to specified moment of its connection, and when t_meas becomes equal to a given reference value t_meas=t_ARS+t_On+Δt (where t_ARS – time delay of the device for automatically re-closing the line switch; t_On – time of circuit breaker connection; Δt is the time of reserve) and at that voltage parameters and angle ϕ₁ are within specified limits, and operating circuit breaker and spare switch are disconnected and spare switch is switched on.

EFFECT: transmission of electric energy in case of failure of the line or devices switch, by means of which the line is switched on again after its disconnection for whatever reasons, except for disconnection from the control switch.

1 cl, 1 dwg

Description

The invention relates to the electric power industry, and in particular, to supplying consumers with electric power in an uninterrupted mode and can be used both for transmitting energy through high-voltage lines with two-way power supply voltage of 110-750 kV, and on dead-end lines with a voltage of 6-500 kV.

A known method of transmission of electricity [Andreev V.A. Relay protection and automation of power supply systems. - Energoatomizdat, 2006. - 494 p.: Ill.], In which, using the switches, the line is put into operation, the position of these switches and their control keys is controlled, and if the position of the switch does not correspond to the position of the control key, the switch is turned on after a set time delay.

This method on double-sided power lines is often not applicable due to the fact that the currents when the line is switched on non-synchronously are unacceptably high. In addition, the method does not take into account the possibility of failure of the devices with which the circuit breaker is reconnected after it is turned off. As a result of a failure, the transmission of electricity ceases.

A known method of electric power transmission [Berkovich MA Automation of power systems. - Energoatomizdat, 1991. - 238 pp., Ill.], Selected as a prototype, in which using working switches they turn the line on, control their position, the position of the control switch for the working switch, output relay protection against short circuits on the line, parameters voltage on the line and the angle φ ₁ between the voltages connected to these switch systems, and when the position of the operating switch becomes not corresponding to the position control key or tripped relay protection (changed status output protection relay), and wherein n parameters of the voltage on the line correspond to specify the parameters of voltage and ≤φ φ _{1 2} where φ ₂ - a predetermined allowable angle between the voltages connected line systems operating switch, trigger line recloser. The disadvantage of this method is the termination of the transmission of electricity in the event of a failure of the line circuit breaker or devices with which the line is switched back on after it is disconnected for any reason other than disconnecting personnel from the switch control key.

The objective of the invention is the uninterrupted supply of electricity to consumers in case of failure of the line switch or devices with which the line is switched back on after it is disconnected for any reason other than disconnecting from the control key.

This is achieved by the fact that in the method of transmitting electricity, as well as in the prototype, using the working switches include a line in the work. They control their position and the position of the operating switch control key, as well as the output short-circuit protection relays on the line, the line voltage parameters and the angle ϕ ₁ between the voltages connected by this system switch. When the position of the operating switch becomes inconsistent with the position of the control key or the relay protection has tripped (the output protection relays have changed position), and the voltage parameters on the line correspond to the specified voltage parameters and ϕ ₁ ≤ϕ ₂ where ϕ ₂ is the specified allowable angle between the voltages connected by the worker line switch systems, start the device to re-enable the line.

According to the invention, before the line is put into operation, a spare switch is installed in the hot reserve, its position is constantly monitored. When, after turning on the line circuit breaker to work, as soon as the position of its control key does not match the position of the circuit breaker or the relay protection has tripped (output protection relays have changed position), they start to measure time t _meas. from the moment the line circuit breaker is turned off to the specified moment of its inclusion, and when t _ISM becomes equal to the specified reference value t _ISM. = t _reclose + t _on + Δt (where t _reclosure is the time delay of the device for automatically reconnecting the line circuit breaker; t _On is the time the line circuit breaker is turned on; Δt is the safety time) and the voltage parameters and angle ϕ ₁ are within the specified limits, and the line circuit breaker and emergency switch, turn on the emergency switch.

The use of a spare switch and measuring the time t _ism , allows, in comparison with the prototype, to transmit electricity in case of failure of the line circuit breaker or devices with which the line is switched back on after it is disconnected for any reason other than disconnecting from the control key.

In FIG. 1 shows a structural diagram of a device that implements the method and communication of the device with the control equipment of the working switch of the line along which energy is transferred.

The method of power transmission can be carried out using a device that contains a time measuring unit 1 (BIV) connected to the output of the first relay 2 (RPO1) of the “disconnected” position of the working switch 3 (B1) (giving a signal about the mismatch of the position of the switch and the position of the control key in the circuit of device 4 (automatic reclosure) for automatic restarting) of line 5 connected to power supply buses 6, as well as to relay protection output 7 (РЗ), which receives information from current transformer 8 (CT), of said line 5. Block 9 inputs (BL ) the logics are connected to the output of unit 1 (BIV) for measuring time, to the output of relay 2 (RPO1) of the “off” position, to the output of unit 10 (BKN) of voltage control, which receives information from voltage transformer 11 (VT), and to the output of the second relay 12 (RPO2 ) the “off” position of the emergency switch 13 (B2). The inputs of the executive body 14 (IO) are connected to the output of the logic unit 9 (BL), the outputs of the executive body 14 (IO) are connected to the switching circuit of the emergency switch 13 (B2) line 5.

As a time measuring unit 1 (BIV), a TECO PB1-220 type time relay can be used, a logic unit 9 (BL) can be performed on an Atmel AT89S53 series 51 microcontroller, as an executive body 14 (IO), consisting of an intermediate relay and contactor, relays of type RP 16-1 and contactor RADE KONCAR 2,5KVAR 400V can be used. As a working 3 (B1) and spare 13 (B2) circuit breakers, Alstom Grid gas-insulated core circuit breakers 110-750 kV can be used. As transformers of current 8 (TT) and voltage 11 (VT), transformers of the T-0.66U3 and ZNOL (P) -EK-10 type can be used, respectively. As a block 10 (BKN) voltage control consisting of a voltage control relay and a synchronism control relay can be used relays type RN-111M and Orion-NF. As the first 2 (RPO1) and second 12 (RPO2) position switch “off” the circuit breaker can be used RP-20M-215 24V 4-4-0.

The device operates as follows. In the event of a short circuit on line 5, the relay protection 7 (RE) switches off the operating switch 3 (B1) of line 5. A mismatch appears between the position of the switch and the control key. The first relay 2 (RPO1) of the “off” position sends a signal to block 1 (BIV) of time measurement and block 9 (BL) of logic, at this time, from the output of device 4 (automatic reclosure) of automatic restart, a signal should be sent to operating switch 3 (B1 ) If the automatic reclosing device 4 (automatic reclosure) has tripped, then the switch 3 (B1) is turned on. The contacts of the first relay 2 (RPO1) of the “disconnected” position returned to their original position. As a result, the signal from the first relay 2 (RPO1) of the “disconnected” position does not arrive at logic block 9 (BL), and the executive body 14 (IO) does not work.

If the automatic reclosing device 4 (AR) did not work or the operating switch 3 (B1) refused to turn on, then the signal from the first relay 2 (RPO1) of position "continues to be sent to block 1 (BIV) of the time measurement and block 9 (BL) of the logic" disabled. " The inputs of the logic unit 9 (BL) of the logic receive signals from the second relay 12 (RPO2) of the “disconnected” position and from the output of the voltage monitoring unit 10 (BKN), if the voltage parameters on the line correspond to the specified voltage parameters and ϕ ₁ ≤ϕ ₂ , and from the output of block 1 (BIV) time measurement after a given time delay t _ISM. = t _reclose + t _on + Δt. Next, from the outputs of block 9 (BL) of the logic, a signal is supplied to the actuator 14 (IO), which supplies a signal to the switching circuit of the emergency switch 13 (B2).

Claims (1)

A method for transmitting electric power, in which, using operating switches, the line is put into operation, their position is controlled, the position of the operating switch control key, output short-circuit protection relays on the line, voltage parameters on the line and angle ϕ ₁ between the voltages of the systems connected by this switch, and when the position of the operating switch becomes inconsistent with the position of the control key or the relay protection has tripped (the output protection relays have changed position), and the voltage parameters on the line correspond to the given and ϕ ₁ ≤ϕ ₂ , where ϕ ₂ is the specified allowable angle between the voltages of the systems connected by the line circuit breaker, the line re-enable device is started, characterized in that, before the line is turned on, the emergency switch is installed in the hot reserve, its position is constantly monitored and, when after turning on the working line switch in operation, as soon as the position of its control key does not match the position of the switch or the relay protection has tripped (output relays thou) measured moment t _edited from tripping switch line to a given point of its inclusion, and when t _edited becomes equal to a predetermined reference value t _edited = t _reclosure + t _ON + Δt (where t _reclosure - time delay device auto-reclosing line switch ; t _On - line switch on time; Δt is the reserve time) and the voltage parameters and angle ϕ ₁ are within the specified limits, and the line circuit breaker and the emergency switch are turned off, the emergency switch is turned on.

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